Verfügbarkeit: System-level modeling of MEMS

System-level modeling of MEMS:

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Bibliographische Detailangaben
Weitere Verfasser:	Bechtold, Tamara (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH-Verl. [2013]
Schriftenreihe:	Advanced micro & nanosystems 10
Schlagworte:	MEMS Computersimulation Ordnungsreduktion Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXXII, 530 S. Ill., graph. Darst.
ISBN:	9783527319039 9783527647132

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MARC


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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS ABOUT T H E EDITORS XIX SERIES EDITOR PREFACE XXI VOLUME EDITORS PREFACE XXIII LIST O F CONTRIBUTORS XXVII PART I PHYSICAL AND MATHEMATICAL FUNDAMENTALS 1 1 INTRODUCTION: ISSUES IN MICROSYSTEMS MODELING 3 GARY K. FEDDER AND TAMAL MUKHETJEE 1.1 THE NEED FOR SYSTEM-LEVEL MODELS FOR MICROSYSTEMS 3 1.2 COUPLED MULTIPHYSICS MICROSYSTEMS 4 1.3 MULTISCALE MODELING A N D SIMULATION 6 1.4 SYSTEM-LEVEL MODEL TERMINOLOGY 7 1.5 AUTOMATED MODEL ORDER REDUCTION METHODS 9 1.6 HANDLING COMPLEXITY: FOLLOWING THE VLSI PARADIGM 10 1.7 ANALOG HARDWARE DESCRIPTION LANGUAGES 11 1.8 GENERAL ATTRIBUTES O F SYSTEM-LEVEL MODELS 12 1.9 AHDL SIMULATION CAPABILITIES 13 1.10 COMPOSABLE MODEL LIBRARIES 14 1.11 PARAMETER EXTRACTION, MODEL VERIFICATION, A N D MODEL VALIDATION 15 1.12 CONCLUSIONS 16 REFERENCES 17 2 SYSTEM-LEVEL MODELING O F MEMS USING GENERALIZED KIRCHHOFFIAN NETWORKS - BASIC PRINCIPLES 19 GABRIELE SCHRAG AND GERHARD WACHUTKA 2.1 INTRODUCTION A N D MOTIVATION 19 2.2 GENERALIZED KIRCHHOFFIAN NETWORKS FOR THE TAILORED SYSTEM-LEVEL MODELING O F MICROSYSTEMS 20 HTTP://D-NB.INFO/1017774811 IMAGE 2 V I I I \| CONTENTS 2.2.1 GENERIC MODELING APPROACH FOR MICRODEVICES A N D SYSTEMS 21 2.2.2 F R O M CONTINUOUS-FIELD LEVEL TO COMPACT MODELS 23 2.2.3 APPROACHES TO COMPACT MODEL DERIVATION 29 2.2.3.1 FINITE NETWORK (FN) MODELS 29 2.2.3.2 COMPACT MODELING O F MEMS 3 0 2.2.3.3 MIXED-LEVEL MODELING (MLM) 31 2.2.3.4 MATHEMATICAL MODEL ORDER REDUCTION (MOR) 3 2 2.3 APPLICATION 1: PHYSICS-BASED ELECTROFLUIDIC COMPACT MODEL O F A N ELECTROSTATICALLY ACTUATED MICROPUMP 32 2.3.1 COMPACT MODEL O F THE MEMBRANE DRIVE 34 2.3.2 COMPACT MODEL O F THE VALVES 36 2.3.3 SYSTEM-LEVEL MODEL O F THE TUBES 38 2.3.4 PHYSICS-BASED SYSTEM-LEVEL MODEL O F THE MICROPUMP 39 2.3.5 MODEL CALIBRATION A N D PARAMETER EXTRACTION 40 2.4 APPLICATION 2: ELECTROSTATICALLY ACTUATED RF MEMS SWITCH 41 2.4.1 CONCLUSIONS 46 REFERENCES 48 3 SYSTEM-LEVEL MODELING O F MEMS BY MEANS O F MODEL ORDER REDUCTION (MATHEMATICAL APPROXIMATIONS) - MATHEMATICAL BACKGROUND 53 LIHONG FENG, PETER BENNER, AND J A N G. KORVINK 3.1 INTRODUCTION 53 3.2 BRIEF OVERVIEW 5 5 3.3 MATHEMATICAL PRELIMINARIES 56 3.3.1 SCALAR, VECTOR, A N D MATRIX 5 7 3.3.2 VECTOR SPACE, SUBSPACE, LINEAR INDEPENDENCE, A N D BASIS 5 7 3.3.3 LAPLACE TRANSFORM 60 3.3.4 RATIONAL FUNCTION 60 3.3.5 NORMS 61 3.3.5.1 VECTOR A N D MATRIX NORMS 61 3.3.5.2 VECTOR FUNCTION NORMS A N D MATRIX FUNCTION NORMS 62 3.4 NUMERICAL ALGORITHMS 63 3.5 LINEAR SYSTEM THEORY 66 3.5.1 TRANSFER FUNCTION 66 3.5.2 MEASURE O F THE DIFFERENCE BETWEEN ANY TWO DIFFERENT LTI SYSTEMS 6 7 3.5.3 CONTROLLABILITY A N D OBSERVABILITY 68 3.5.4 REALIZATION THEORY 69 3.5.5 STABILITY A N D PASSIVITY O F A SYSTEM 70 3.6 BASIC IDEA O F MODEL ORDER REDUCTION 71 3.7 MOMENT-MATCHING MODEL ORDER REDUCTION 73 3.7.1 MOMENTS A N D M O M E N T VECTORS 73 3.7.2 COMPUTATION O F THE PROJECTION MATRICES W A N D V 74 3.7.3 DIFFERENT CHOICES O F THE EXPANSION POINTS 75 3.7.4 DEVELOPMENT O F MOMENT-MATCHING MOR 76 IMAGE 3 CONTENTS I I X 3.8 GRAMIAN-BASED MODEL ORDER REDUCTION 7 7 3.8.1 MOTIVATION O F BALANCED TRUNCATION 78 3.8.2 BALANCING TRANSFORMATION 78 3.8.3 TRUNCATION 80 3.8.4 COMPUTATION O F THE BALANCING TRANSFORMATION 81 3.8.5 ACCELERATION METHODS O F COMPUTING THE GRAMIANS 82 3.8.6 EXTENSION TO MORE GENERAL SYSTEMS 83 3.9 STABILITY, PASSIVITY, A N D ERROR ESTIMATION O F THE REDUCED MODEL 84 3.9.1 STABILITY, PASSIVITY, AND ERROR BOUND O F MOMENT-MATCHING MOR 84 3.9.2 STABILITY, PASSIVITY, A N D ERROR BOUND O F THE GRAMIAN-BASED MOR 84 3.10 DEALING WITH NONZERO INITIAL CONDITION 85 3.11 MOR FOR SECOND-ORDER, NONLINEAR, PARAMETRIC SYSTEMS 86 3.12 CONCLUSION A N D OUTLOOK 86 REFERENCES 87 4 ALGORITHMIC APPROACHES FOR SYSTEM-LEVEL SIMULATION O F MEMS AND ASPECTS O F COSIMULATION 95 PETER SCHNEIDER, CHRISTOPH CLAUJI, ULRICH DONATH, GTTNTER ELST, OLAF ENGE-ROSENBLATT, AND THOMAS UHLE 4.1 INTRODUCTION 95 4.2 MATHEMATICAL STRUCTURE O F MEMS MODELS 96 4.2.1 DIFFERENTIAL A N D ALGEBRAIC EQUATIONS 9 7 4.2.1.1 MULTIBODY SYSTEMS 98 4.2.1.2 FLUIDIC SYSTEMS 99 4.2.1.3 NETWORKS 101 4.2.2 BOOLEAN EQUATIONS AND FINITE STATE MACHINES 102 4.3 GENERAL APPROACHES FOR SYSTEM-LEVEL MODEL DESCRIPTION 104 4.3.1 SPICE A N D MACROMODELING 104 4.3.2 MODEL DESCRIPTION LANGUAGES 105 4.4 NUMERICAL METHODS FOR SYSTEM-LEVEL SIMULATION 107 4.4.1 SOLUTION O F NONLINEAR DAES 107 4.4.2 MIXED-SIGNAL SIMULATION CYCLE 109 4.4.3 COSIMULATION 110 4.4.3.1 COUPLING ALGORITHMS 111 4.4.3.2 COSIMULATION INTERFACE 112 4.5 EMERGING PROBLEMS A N D ADVANCED SIMULATION TECHNIQUES 113 4.5.1 DISCONTINUOUS FORCING FUNCTIONS 114 4.5.2 STRUCTURAL CHANGES I N MODEL EQUATIONS 117 4.6 CONCLUSION 118 REFERENCES 118 IMAGE 4 X \| CONTENTS PART II LUMPED ELEMENT MODELING METHOD FOR MEMS DEVICES 123 5 SYSTEM-LEVEL MODELING O F SURFACE MICROMACHINED BEAMLIKE ELECTROTHERMAL MICROACTUATORS 125 REN-GANG LI AND QING-AN HUANG 5.1 INTRODUCTION 125 5.2 CLASSIFICATION A N D PROBLEM DESCRIPTION 127 5.2.1 IN-PLANE 127 5.2.1.1 U-SHAPED ACTUATOR 127 5.2.1.2 BENT-BEAM ACTUATORS 128 5.2.1.3 LONG-SHORT BEAM ACTUATOR 128 5.2.2 O U T O F PLANE 129 5.2.3 MATERIAL PROPERTIES 129 5.2.3.1 THERMAL CONDUCTIVITY 129 5.2.3.2 SPECIFIC HEAT 130 5.2.3.3 RESISTIVITY 130 5.2.3.4 COEFFICIENT O F THERMAL EXPANSION 130 5.3 MODELING 131 5.3.1 ELECTROTHERMAL MODEL O F A BEAM 131 5.3.2 THERMOMECHANICAL MODEL O F THE BEAM 134 5.4 SOLVING 136 5.4.1 EQUIVALENT CIRCUIT O F A COUPLED ELECTROTHERMAL MODEL 137 5.4.2 EQUIVALENT CIRCUIT O F THE THERMOMECHANICAL MODEL O F A BEAM 138 5.5 CASE STUDY 139 5.6 CONCLUSION A N D OUTLOOK 142 REFERENCES 143 6 SYSTEM-LEVEL MODELING O F PACKAGING EFFECTS O F MEMS DEVICES 147 JING SONG AND QING-AN HUANG 6.1 INTRODUCTION 147 6.2 PACKAGING EFFECTS O F MEMS A N D THEIR IMPACT O N TYPICAL MEMS DEVICES 148 6.2.1 ACCELEROMETERS 148 6.2.2 GYROS 149 6.2.3 PRESSURE SENSORS 149 6.2.4 THERMAL ACTUATORS 149 6.2.5 HALL SENSORS 150 6.3 SYSTEM-LEVEL MODELING 150 6.3.1 SYSTEM PARTITIONING 151 6.3.2 BEHAVIORAL MODELING O F SINGLE SUBSTRUCTURES 152 6.3.2.1 MICROBEAM MODEL 152 6.3.2.2 CHIP/ADHESIVE/PACKAGE MODEL 153 6.3.2.3 SUPPORT MODEL 155 6.3.3 ELEMENT INTEGRATION 156 6.3.4 FEM A N D EXPERIMENTAL VALIDATION 157 IMAGE 5 CONTENTS \| X I 6.4 CONCLUSION A N D OUTLOOK 160 REFERENCES 160 7 MIXED-LEVEL APPROACH FOR T H E MODELING O F DISTRIBUTED EFFECTS IN MICROSYSTEMS 163 MARTIN NIESSNER AND GABRIELE SCHRAG 7.1 GENERAL CONCEPT O F FINITE NETWORKS A N D MIXED-LEVEL MODELS 163 7.2 APPROACHES FOR THE MODELING O F SQUEEZE FILM DAMPING IN MEMS 165 7.2.1 REYNOLDS EQUATION-BASED MODELING STRATEGIES 166 7.2.2 MOTIVATION FOR USING MIXED-LEVEL MODELING 168 7.3 MIXED-LEVEL MODELING O F SQUEEZE FILM DAMPING IN MEMS 169 7.3.1 FINITE NETWORK-BASED EVALUATION O F THE REYNOLDS EQUATION 170 7.3.2 PHYSICS-BASED LUMPED ELEMENT MODELS 173 7.3.2.1 BOUNDARY MODEL 173 7.3.2.2 HOLE MODEL 174 7.3.3 GAS RAREFACTION EFFECTS 175 7.3.4 CALCULATION O F THE TOTAL DAMPING FORCE 177 7.3.5 COUPLING WITH MECHANICAL MODELS 177 7.3.6 AUTOMATED MODEL GENERATION 178 7.4 EVALUATION 179 7.4.1 NUMERICAL EVALUATION 179 7.4.2 EXPERIMENTAL EVALUATION 180 7.4.3 COMPARISON WITH ALTERNATIVE DAMPING MODELS 185 7.5 CONCLUSION 186 REFERENCES 187 8 COMPACT MODELING O F RF-MEMS DEVICES 191 JACOPO IANNACCI 8.1 INTRODUCTION 191 8.2 BRIEF DESCRIPTION O F THE MEMS COMPACT MODELING APPROACH 192 8.3 RF-MEMS MULTISTATE ATTENUATOR PARALLEL SECTION 194 8.4 RF-MEMS MULTISTATE ATTENUATOR SERIES SECTION 202 8.5 WHOLE RF-MEMS MULTISTATE ATTENUATOR NETWORK 205 8.6 CONCLUSIONS 207 REFERENCES 208 PART III MATHEMATICAL MODEL ORDER REDUCTION FOR MEMS DEVICES 211 9 MOMENT-MATCHING-BASED LINEAR MODEL ORDER REDUCTION FOR NONPARAMETRIC AND PARAMETRIC ELECTROTHERMAL MEMS MODELS 213 TAMARA BECHTOLD, DENNIS HOHLFDD, EVGENII B. RUDNYI, AND J A N G. KORVINK 9.1 INTRODUCTION 213 9.2 METHODOLOGY FOR APPLYING MODEL ORDER REDUCTION TO ELECTROTHERMAL MEMS MODELS: REVIEW O F ACHIEVED RESULTS A N D OPEN ISSUES 213 9.3 MEMS CASE STUDY - SILICON-BASED MICROHOTPLATE 220 IMAGE 6 X I I I CONTENTS 9.4 APPLICATION O F THE REDUCED-ORDER MODEL FOR THE PARAMETERIZATION O F T H E CONTROLLER 223 9.5 APPLICATION O F PARAMETRIC REDUCED-ORDER MODEL TO THE EXTRACTION OF THIN-FILM THERMAL PARAMETERS 227 9.5.1 PARAMETRIC MODEL ORDER REDUCTION 228 9.5.2 PARAMETER EXTRACTION METHODOLOGY 230 9.6 CONCLUSION A N D OUTLOOK 232 REFERENCES 234 10 PROJECTION-BASED NONLINEAR MODEL ORDER REDUCTION 237 A M I T HOCHMAN, DMITRY M. VASILYEV, MICHAI J. REWIENSKI, AND JACOB K. WHITE 10.1 INTRODUCTION 237 10.2 PROBLEM SPECIFICATION 238 10.3 PROJECTION PRINCIPLE A N D EVALUATION COST FOR NONLINEAR SYSTEMS 239 10.4 TAYLOR SERIES EXPANSIONS 240 10.4.1 MICROFLUIDIC CHANNEL EXAMPLE 241 10.4.2 MODEL REDUCTION VIA QUADRATIC TAYLOR EXPANSION 242 10.4.3 STABILITY ISSUES 244 10.4.4 TAYLOR SERIES EXPANSIONS: SUMMARY 245 10.5 TRAJECTORY PIECEWISE-LINEAR METHOD 245 10.5.1 NONLINEAR TRANSMISSION-LINE MODEL 246 10.5.2 STABILITY ISSUES 247 10.5.3 TPWL SUMMARY 249 10.6 DISCRETE EMPIRICAL INTERPOLATION METHOD 250 10.6.1 THERMAL ANALYSIS 251 10.6.2 STABILITY ISSUES 253 10.6.3 DEIM SUMMARY 254 10.7 A COMPARATIVE CASE STUDY O F A N MEMS SWITCH 255 10.7.1 PULL-IN EFFECT 256 10.7.2 GENERALIZING FROM TRAINING INPUTS 258 10.7.3 HARMONIC DISTORTION 258 10.7.4 A NOTE ABOUT CPU TIMES 259 10.8 SUMMARY A N D OUTLOOK 260 ACKNOWLEDGMENT 260 REFERENCES 261 11 LINEAR AND NONLINEAR MODEL ORDER REDUCTION FOR MEMS ELECTROSTATIC ACTUATORS 263 JAN LIENEMANN, EMANUELE BERTARELLI, ANDREAS GREINER, AND J A N G. KORVINK 11.1 INTRODUCTION 263 11.2 THE VARIABLE GAP PARALLEL PLATE CAPACITOR 264 11.2.1 PULL-IN 266 11.2.2 REGIMES O F THE TRAJECTORY 268 11.3 MODEL ORDER REDUCTION METHODS 269 IMAGE 7 CONTENTS X I I I 11.3.1 REPRESENTATION O F N ONLINEARITIES 270 11.3.2 MOR METHODS FOR SECOND-ORDER LINEAR SYSTEMS 270 11.3.3 MOR METHODS FOR NONLINEAR SYSTEMS 272 11.3.3.1 POLYNOMIAL PROJECTION 273 11.3.3.2 TRAJECTORY PIECEWISE-LINEAR (TPWL) METHOD 274 11.4 EXAMPLE 1: IBM SCANNING-PROBE DATA STORAGE DEVICE 275 11.4.1 CANTILEVER MODEL 277 11.4.2 MODEL ORDER REDUCTION WITH POLYNOMIAL PROJECTION 277 11.4.2.1 EXTRACTION O F NONLINEAR SYSTEM 277 11.4.2.2 POLYNOMIAL APPROXIMATION 278 11.4.2.3 MODEL ORDER REDUCTION O F THE POLYNOMIAL SYSTEM 278 11.4.3 RESULTS 279 11.4.4 DISCUSSION 281 11.5 EXAMPLE 2: ELECTROSTATIC MICROPUMP DIAPHRAGM 281 11.5.1 PLATE MODEL FORMULATION 282 11.5.2 MODEL ORDER REDUCTION BY TPWL A N D ARNOLDI METHODS 284 11.6 RESULTS A N D DISCUSSION 285 11.7 CONCLUSIONS 286 ACKNOWLEDGMENTS 287 REFERENCES 287 12 MODAL-SUPERPOSITION-BASED NONLINEAR MODEL ORDER REDUCTION FOR MEMS GYROSCOPES 291 JAN MEHNER 12.1 INTRODUCTION 291 12.2 MODEL ORDER REDUCTION VIA MODAL SUPERPOSITION 292 12.3 MEMS TESTCASE: VIBRATORY GYROSCOPE 293 12.4 FLOW CHART O F THE NONLINEAR MODEL ORDER REDUCTION PROCEDURE 294 12.5 THEORETICAL BACKGROUND O F MODAL SUPERPOSITION TECHNOLOGIES 295 12.5.1 LINEAR MECHANICAL SYSTEMS 295 12.5.2 NONLINEAR ELECTROMECHANICAL INTERACTIONS A N D BODY LOADS O F CAPACITIVE SENSORS 297 12.5.3 PARAMETRIC REDUCED ORDER MODELS FOR PACKAGING INTERACTIONS 298 12.6 SPECIFIC ALGORITHMS O F T H E REDUCED ORDER MODEL GENERATION PASS 299 12.6.1 EXTRACTION O F BODY LOAD CONTRIBUTION VECTORS FOR MODAL SUPERPOSITION 299 12.6.2 EXTRACTION O F CAPACITANCES FOR COMB CELL CONDUCTORS A N D PLATELIKE CAPACITORS 301 12.6.3 DATA SAMPLING A N D FUNCTION FIT PROCEDURES FOR MULTIVARIABLE CAPACITANCES 302 12.7 SYSTEM SIMULATIONS O F MEMS BASED O N MODAL SUPERPOSITION 304 12.7.1 BEHAVIORAL ANALYSIS O F VIBRATORY GYROSCOPES IN MATLAB/ SIMULINK 304 IMAGE 8 X I V \| CONTENTS 12.7.2 SIMULATIONS WITH REDUCED ORDER MODELS BASED O N KIRCHHOFFIAN NETWORKS 306 12.7.3 EXPANSION O F SYSTEM SIMULATION RESULTS TO FULL ORDER FEM MODELS 306 12.8 CONCLUSION A N D OUTLOOK 307 REFERENCES 308 PART IV MODELING O F ENTIRE MICROSYSTEMS 311 13 TOWARDS SYSTEM-LEVEL SIMULATION O F ENERGY HARVESTING MODULES 313 DENNIS HOHLFELD, TAMARA BECHTOLD, EVGENII B. RUDNYI, BERT OP HET VELD, AND ROB VAN SCHAIJK 13.1 INTRODUCTION 313 13.1.1 WIRELESS AUTONOMOUS SENSOR NODES 314 13.1.2 MICROPOWER MODULE 315 13.1.3 VIBRATIONAL HARVESTERS 316 13.2 DESIGN A N D FABRICATION O F THE PIEZOELECTRIC GENERATOR 317 13.3 EXPERIMENTAL RESULTS 318 13.4 MODELING A N D SIMULATION 318 13.4.1 LUMPED ELEMENT MODELING 319 13.4.2 FINITE ELEMENT MODELING 320 13.4.3 MODEL ORDER REDUCTION 322 13.4.4 TRANSIENT MEMS CIRCUIT COSIMULATION 323 13.4.5 HARMONIC MEMS CIRCUIT COSIMULATION 325 13.5 MAXIMUM POWER POINT FOR THE PIEZOELECTRIC HARVESTER 327 13.5.1 COMPLEX MATCHING 328 13.5.2 REAL MATCHING 330 13.5.3 CONSEQUENCE O F MATCHING 331 13.6 CONCLUSIONS A N D OUTLOOK 332 REFERENCES 333 14 APPLICATION O F REDUCED ORDER MODELS IN CIRCUIT-LEVEL DESIGN FOR RF MEMS DEVICES 335 LAURA DEL TIN, EVGENII B. RUDNYI, AND JAN G. KORVINK 14.1 MODEL EQUATIONS FOR RF MEMS DEVICES 337 14.2 EXTRACTION O F THE REDUCED ORDER MODEL 340 14.2.1 SECOND ORDER ODE SYSTEMS 341 14.2.2 HANDLING NONLINEARITIES I N THE INPUT FUNCTION 341 14.2.3 EXTRACTION PROCEDURE 343 14.3 APPLICATION EXAMPLES 345 14.3.1 VIBRATING DEVICES 345 14.3.2 MICROSWITCH 351 14.4 CONCLUSION A N D OUTLOOK 354 REFERENCES 355 IMAGE 9 CONTENTS \| X V 15 SYSTEMC AMS AND COSIMUIATION ASPECTS 357 FRANGOIS PICHEUX, MARIE-MINERVE LOUERAT, AND KARSTEN EINWICH 15.1 INTRODUCTION 357 15.2 HETEROGENEOUS MODELING WITH SYSTEMC AMS 358 15.2.1 SYSTEMC AMS TIMED DATAFLOW (TDF) 358 15.2.2 TIMED DATAFLOW MODEL O F THE ACCELEROMETER 359 15.2.3 ELECTRICAL LINEAR NETWORK MODEL O F THE MEMS ACCELEROMETER 361 15.3 CASE STUDY: DETECTION O F SEISMIC PERTURBATIONS USING THE ACCELEROMETER 363 15.3.1 SEISMIC STIMULI A N D SEISMIC SENSORS I N SYSTEMC AMS TDF 365 15.3.2 DIGITAL CONTROLLER IN SYSTEMC 365 15.3.3 2.4 G H Z RF TRANSCEIVER 366 15.3.4 BATTERY MODELING 368 15.3.5 EMBEDDED SOFTWARE, CROSS-COMPILED G N U GCC APPLICATION FOR MIPS 369 15.3.6 SIMULATION RESULTS 369 15.4 CONCLUSION 370 APPENDIX 371 REFERENCES 374 16 SYSTEM LEVEL MODELING O F ELECTROMECHANICAL SIGMA-DELTA MODULATORS FOR INERTIAL MEMS SENSORS 3 7 7 MICHAEL KRAFT 16.1 INTRODUCTION A N D MOTIVATION 377 16.2 SECOND ORDER ELECTROMECHANICAL E AM FOR A MEMS ACCELEROMETER 380 16.2.1 BASIC MODEL 380 16.2.2 ADVANCED MODEL 386 16.3 HIGHER ORDER ELECTROMECHANICAL E A M FOR MEMS ACCELEROMETER 391 16.3.1 DESIGN METHODOLOGY FOR HIGHER ORDER E M S A M 391 16.3.2 EXAMPLE DESIGN 392 16.3.3 FEEDBACK LINEARIZATION 395 16.3.4 ADVANCED MODEL 396 16.4 HIGHER ORDER ELECTROMECHANICAL S A M FOR MEMS GYROSCOPES 397 16.5 CONCLUDING REMARKS 400 REFERENCES 401 PART V SOFTWARE IMPLEMENTATIONS 405 17 3D PARAMETRIC-LIBRARY-BASED MEMS/IC DESIGN 407 GUNAR LORENZ AND GEROLD SCHROPFER 17.1 ABOUT SCHEMATIC-DRIVEN MEMS MODELING 407 17.2 A 3D PARAMETRIC LIBRARY FOR MEMS D E S I G N - M E M S + 409 17.2.1 3D DESIGN ENTRY FOR MEMS 409 IMAGE 10 X V I \| CONTENTS 17.2.2 MEMS MODEL LIBRARY 410 17.2.3 INTEGRATION WITH SYSTEM SIMULATORS 412 17.2.4 INTEGRATION WITH MATLAB A N D SIMULINK 413 17.2.5 INTEGRATION WITH EDA TOOLS 414 17.3 TOWARD MANUFACTURABLE MEMS DESIGNS 415 17.3.1 PARAMETERIZATION O F PROCESS A N D MATERIAL PROPERTIES 415 17.3.2 PROCESS DESIGN KITS 418 17.4 MICROMIRROR ARRAY DESIGN EXAMPLE 419 17.5 CONCLUSIONS 422 REFERENCES 423 18 MORFORANSYS 425 EVGENII B. RUDNYI 18.1 INTRODUCTION 425 18.2 PRACTICE-ORIENTED RESEARCH DURING THE DEVELOPMENT O F MOR FOR ANSYS 426 18.3 PROGRAMMING ISSUES 429 18.3.1 OBTAINING SYSTEM MATRICES FROM ANSYS 430 18.3.2 SOLVERS 431 18.4 OPEN PROBLEMS 432 18.5 CONCLUSION 436 REFERENCES 437 19 SUGAR: A SPICE FOR MEMS 439 JASON V. CLARK 19.1 INTRODUCTION 439 19.2 SUGAR 439 19.2.1 EQUATION O F MOTION 440 19.3 SUGAR-BASED APPLICATIONS 444 19.3.1 LIBRARY 444 19.3.2 DESIGN/SIMULATION 445 19.3.3 LAYOUT GENERATION 445 19.3.4 C O M M O N GROUND TRACERS 445 19.3.5 ETCH HOLES 447 19.3.6 MULTILAYER PADS 447 19.3.7 PARAMETERIZED ARRAYS 447 19.3.8 OPTIMIZATION 448 19.3.9 NEMS 448 19.3.10 PSUGAR 450 19.3.11 GUI CONFIGURATION 450 19.3.12 DAES 451 19.3.13 SIMULATION 453 19.4 INTEGRATION O F SUGAR + COMSOL + SPICE + SIMULINK 454 19.4.1 INTEGRATION 456 19.4.2 VERIFICATION 457 IMAGE 11 CONTENTS \| X V I I 19.5 CONCLUSION 4 5 7 REFERENCES 458 20 MODEL ORDER REDUCTION IMPLEMENTATIONS IN COMMERCIAL MEMS DESIGN ENVIRONMENT 461 SANDEEP AKKARAJU 20.1 INTRODUCTION 461 20.1.1 A B INITIO (FIRST PRINCIPLES) SIMULATIONS 461 20.1.2 TECHNOLOGY CAD (TCAD) 462 20.1.3 SCHEMATIC OR COMPONENT-BASED DESIGN (TOP-DOWN DESIGN) 462 20.1.4 LAYOUT-BASED DESIGN (BOTTOM-UP DESIGN) 463 20.1.5 SYSTEM MODEL EXTRACTION (SME) 464 20.1.6 VERIFICATION 465 20.1.7 SYSTEM SIMULATION 4 6 7 20.2 INTELLISENSE'S DESIGN METHODOLOGY 4 6 7 20.2.1 FROM THE TOP DOWN 4 6 7 20.2.2 ONE STEP AT A TIME 468 20.2.3 CLOSING THE LOOP 469 20.3 IMPLEMENTATION O F SYSTEM MODEL EXTRACTION IN INTELLISUITE 470 20.3.1 HIGH-LEVEL OVERVIEW 470 20.3.2 CAPTURING RESIDUAL STRESS A N D FILM DAMPING EFFECTS 471 20.3.3 IMPLEMENTATION 473 20.4 BENCHMARKS 474 20.4.1 ACCELEROMETER 474 20.4.2 INERTIAL GYROSCOPE 474 20.4.3 FLUID DAMPING 477 20.4.4 COUPLED PACKAGE-DEVICE MODELING 478 20.5 SUMMARY 480 REFERENCES 481 21 REDUCED ORDER MODELING O F MEMS AND IC SYSTEMS - A PRACTICAL APPROACH 483 SEBASTIEN CASES AND MARY-ANN MAKER 21.1 INTRODUCTION 483 21.2 THE MEMS DEVELOPMENT ENVIRONMENT 484 21.3 MODELING REQUIREMENTS A N D IMPLEMENTATION WITHIN SOFTMEMS SIMULATION ENVIRONMENT 485 21.3.1 MODELS A N D INPUTS 487 21.3.2 MODELING PROCESS 490 21.3.3 MODEL OUTPUT 492 21.3.4 PARAMETERIZATION 492 21.4 APPLICATIONS 494 21.5 CONCLUSIONS A N D OUTLOOK 498 REFERENCES 498 IMAGE 12 X V I I I \| CONTENTS 22 A WEB-BASED COMMUNITY FOR MODELING AND DESIGN O F MEMS 501 PETER J. GUGUNN, JASON V. CLARK, NARAYAN ALURU, TAMAL MUKHEIJEE, AND GARY K. FEDDER 22.1 INTRODUCTION 501 22.2 THE MEMS MODELING A N D DESIGN LANDSCAPE 501 22.3 LEVERAGING WEB-BASED COMMUNITIES 502 22.3.1 CONCEPTS O F WEB-BASED DESIGN 503 22.3.2 DESIGN COMMUNITY CONSTITUTION 504 22.4 MEMS MODELING A N D DESIGN ONLINE 505 22.4.1 SYSTEM-LEVEL MODELING O F MEMS 506 22.4.2 WEB-BASED COMMUNITY CONVENTIONS 507 22.5 ENCODING MEMS BEHAVIORAL MODELS 508 22.5.1 INSIDE THE BLACK BOX - NONLINEAR BEAM 509 22.5.2 BEHAVIORAL MODEL PERFORMANCE - NONLINEAR BEAM 511 22.5.3 BEHAVIORAL MODEL EXTENSIONS 512 22.5.4 BEHAVIORAL MODEL COMPOSABILITY 513 22.6 CONCLUSIONS A N D OUTLOOK 515 REFERENCES 515 INDEX 519
any_adam_object	1
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dewey-search	621.381
dewey-sort	3621.381
dewey-tens	620 - Engineering and allied operations
discipline	Elektrotechnik / Elektronik / Nachrichtentechnik
format	Book
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spelling	System-level modeling of MEMS edited by Tamara Bechtold .... System-level modeling of MEMS Weinheim Wiley-VCH-Verl. [2013] © 2013 XXXII, 530 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Advanced micro & nanosystems 10 MEMS (DE-588)4824724-8 gnd rswk-swf Computersimulation (DE-588)4148259-1 gnd rswk-swf Ordnungsreduktion (DE-588)4136085-0 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content MEMS (DE-588)4824724-8 s Computersimulation (DE-588)4148259-1 s Ordnungsreduktion (DE-588)4136085-0 s DE-604 Bechtold, Tamara edt Erscheint auch als Online-Ausgabe, PDF 978-3-527-64712-5 Advanced micro & nanosystems 10 (DE-604)BV019371555 10 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025732567&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	System-level modeling of MEMS Advanced micro & nanosystems MEMS (DE-588)4824724-8 gnd Computersimulation (DE-588)4148259-1 gnd Ordnungsreduktion (DE-588)4136085-0 gnd
subject_GND	(DE-588)4824724-8 (DE-588)4148259-1 (DE-588)4136085-0 (DE-588)4143413-4
title	System-level modeling of MEMS
title_alt	System-level modeling of MEMS
title_auth	System-level modeling of MEMS
title_exact_search	System-level modeling of MEMS
title_full	System-level modeling of MEMS edited by Tamara Bechtold ....
title_fullStr	System-level modeling of MEMS edited by Tamara Bechtold ....
title_full_unstemmed	System-level modeling of MEMS edited by Tamara Bechtold ....
title_short	System-level modeling of MEMS
title_sort	system level modeling of mems
topic	MEMS (DE-588)4824724-8 gnd Computersimulation (DE-588)4148259-1 gnd Ordnungsreduktion (DE-588)4136085-0 gnd
topic_facet	MEMS Computersimulation Ordnungsreduktion Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025732567&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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